A disclosed storage management method includes detecting an unrecoverable failure associated with a logical block of a first physical storage device that is one of a plurality of storage devices within a redundant virtual drive that also includes a hot spare drive. Data for the unrecoverable block may be rebuilt from data in the remaining storage devices and stored in a logical block of the hot spare drive. One or more logical block maps may be maintained to identify unrecoverable logical blocks and to indicate the logical blocks and storage devices to which each of the unrecoverable logical blocks is relocated. I/O operations that access “good” logical blocks are normally while accesses to unrecoverable logical blocks are rerouted according to the logical block map. One or more unrecoverable thresholds may be supported to initiate operations to replace storage devices containing unrecoverable blocks exceeding an applicable threshold.

A fault tolerant server according to the present invention configured to duplicate information processing by an online subsystem and an offline subsystem, the fault tolerant server operates to: execute entire copy processing for copying all data being stored in the memory of the online subsystem into the memory of the offline subsystem without stopping execution of information processing by the processor of the online subsystem, before start of duplication; detect data, the data satisfying a criterion indicating that content of data is changed during the entire copy processing, among data being stored in the memory of the online subsystem; and copy the detected data from the memory of the online subsystem into the memory of the offline subsystem.

A communicative building management system (BMS) can enable replication of data from computer systems that may potentially be affected by various external events. The BMS is coupled to environmental sensors and configured to receive sensor signals and communicate with one or more computer systems implementing a service. The BMS notifies a console system administrating a service that one or more computer systems implementing the service are affected by a data center event based on signals received from one or more sensor devices associated with a zone including the affected computer systems. A console system commands replication of data stored on the affected computer systems to separate computer systems based at least in part on the notification from the BMS indicating the computer systems are affected by the data center event.

A method of managing databases (DBs) in duplex servers includes: updating a DB in the backup server to a first version; transmitting a list of name keys in the backup server to the active server; transmitting name keys that are identical between the active server and the backup server to the backup server; and synchronizing DBs between the active server and the backup server by using the identical name keys. The data can be synchronized between DBs having different versions based on name keys.

A method, computer program product, and computer system for performing, via a first computing device, a copy sweep operation to a first range of data on a source storage device. It may be determined that the copy sweep operation has failed. A message may be sent to a second computing device to suspend I/O operations to the first range of data. The copy sweep operation may be retried based upon, at least in part, determining that the copy sweep operation has failed, wherein the copy sweep operation may be retried without the first computing device receiving acknowledgement that the second computing device is suspending the I/O operations to the first range of data.

A control module that manages a segment to which data is written implements write processing and resynchronization processing using a bitmap managed for each LUN. In other words, the control module stores the bitmap for the managed LUN in a bitmap storage unit. A mirror LUN control unit sets a corresponding portion of the bitmap to 1, controls data write to a target segment and a mirror segment, and resets the bitmap to 0 when the data write to both of the segments is complete. A resynchronization control unit refers to the bitmap storage unit to perform the resynchronization processing.

A system includes a memory device and a processing device, operatively coupled to the memory device. The processing device is to perform operations, including initializing a block family associated with the memory device and initializing a timer associated with the block family. Responsive to beginning to program a block residing on the memory device, the processing device associates the block with the block family. In response to the timer reaching a soft closure value, the processing device performs a soft closure of the block family; continues to program data to the block; and performs a hard closure of the block family in response to one of the timer reaching a hard closure value or the block family satisfying a hard closure criteria.

A method for fault tolerant controller readiness. Executing functions by a first controller operating in a primary status mode. Operating in a hot standby status mode by a second controller and mirroring the first controller by executing functions to operate as a redundant controller. Operating in a cold standby status mode by at least one backup controller under normal operating conditions. The second controller is reconfigured while operating under normal operating conditions from the hot standby status mode to the primary standby status mode if a failure occurs in the first controller. Reconfiguring the at least one backup controller operating under normal operating conditions from cold standby status mode to hot standby status mode to operate as a redundant controller in response to the reconfiguring the second controller from the hot standby status mode to the primary status mode.

Systems and methods herein provide for a clustered content management comprising at least two computing nodes. A first node comprises an instance of the content repository. The first computing node may perform content management operations on its instance of the content repository. Changes to the instance of the content repository of the first computing node are synchronized with the content repository by way of a second computing node. The second computing node is communicatively coupled to the first computing node through a network and is operable to synchronize the change with the content repository. The second computing node also determines that synchronization of the change is blocked due to an error. The second computing node identifies the error, determines that the error is correctable, and corrects the error to synchronize the change with the content repository.

Provided are a computer program product, system, and method for providing track format information when mirroring updated tracks from a primary storage system to a secondary storage system. The primary storage system determines a track to mirror to the secondary storage system and determines whether there is track format information for the track to mirror. The track format information indicates a format and layout of data in the track, indicated in track metadata for the track. The primary storage system sends the track format information to the secondary storage system, in response to determining there is the track format information and mirrors the track to mirror to the secondary storage system. The secondary storage system uses the track format information for the track in the secondary cache when processing a read or write request to the mirrored track.